DESCRIPTION: Ensure that a MERGE command on a distributed table with a
`WHEN NOT MATCHED BY SOURCE` clause runs against all shards of the
distributed table.
The Postgres MERGE command updates a table using a table or a query as a
data source. It provides three ways to match the target table with the
source: `WHEN MATCHED` means that there is a row in both the target and
source; `WHEN NOT MATCHED` means that there is a row in the source that
has no match (is not present) in the target; and, as of PG17, `WHEN NOT
MATCHED BY SOURCE` means that there is a row in the target that has no
match in the source.
In Citus, when a MERGE command updates a distributed table using a
local/reference table or a distributed query as source, that source is
repartitioned, and for each repartitioned shard that has data (i.e. 1 or
more rows) the MERGE is run against the corresponding distributed table
shard. Suppose the distributed table has 32 shards, and the source
repartitions into 4 shards that have data, with the remaining 28 shards
being empty; then the MERGE command is performed on the 4 corresponding
shards of the distributed table. However, the semantics of `WHEN NOT
MATCHED BY SOURCE` are that the specified action must be performed on
the target for each row in the target that is not in the source; so if
the source is empty, all target rows should be updated. To see this,
consider the following MERGE command:
```
MERGE INTO target AS t
USING source AS s ON t.id = s.id
WHEN NOT MATCHED BY SOURCE THEN UPDATE t SET t.col1 = 100
```
If the source has zero rows then every row in the target is updated s.t.
its col1 value is 100. Currently in Citus a MERGE on a distributed table
with a local/reference table or a distributed query as source ignores
shards of the distributed table when the corresponding shard of the
repartitioned source has zero rows. However, if the MERGE command
specifies a `WHEN NOT MATCHED BY SOURCE` clause, then the MERGE should
be performed on all shards of the distributed table, to ensure that the
specified action is performed on the target for each row in the target
that is not in the source. This PR enhances Citus MERGE execution so
that when a repartitioned source shard has zero rows, and the MERGE
command specifies a `WHEN NOT MATCHED BY SOURCE` clause, the MERGE is
performed against the corresponding shard of the distributed table using
an empty (zero row) relation as source, by generating a query of the
form:
```
MERGE INTO target_shard_0002 AS t
USING (SELECT id FROM (VALUES (NULL) ) source_0002(id) WHERE FALSE) AS s ON t.id = s.id
WHEN NOT MATCHED BY SOURCE THEN UPDATE t set t.col1 = 100
```
This works because each row in the target shard will be updated, and
`WHEN MATCHED` and `WHEN NOT MATCHED`, if specified, will be no-ops
because the source has zero rows.
To implement this when the source is a local or reference table involves
teaching function `ExcuteSourceAtCoordAndRedistribution()` in
`merge_executor.c` to not prune tasks when the query has `WHEN NOT
MATCHED BY SOURCE` but to instead replace the task's query to one that
uses an empty relation as source. And when the source is a distributed
query, function
`ExecuteMergeSourcePlanIntoColocatedIntermediateResults()` (also in
`merge_executor.c`) instead of skipping empty tasks now generates a
query that uses an empty relation as source for the corresponding target
shard of the distributed table, but again only when the query has `WHEN
NOT MATCHED BY SOURCE`. A new function `BuildEmptyResultQuery()` is
added to `recursive_planning.c` and it is used by both the
aforementioned functions in `merge_executor.c` to build an empty
relation to use as the source. It applies the appropriate type to each
column of the empty relation so the join with the target makes sense to
the query compiler.
DESCRIPTION: Drops PG14 support
1. Remove "$version_num" != 'xx' from configure file
2. delete all PG_VERSION_NUM = PG_VERSION_XX references in the code
3. Look at pg_version_compat.h file, remove all _compat functions etc
defined specifically for PGXX differences
4. delete all PG_VERSION_NUM >= PG_VERSION_(XX+1), PG_VERSION_NUM <
PG_VERSION_(XX+1) ifs in the codebase
5. delete ruleutils_xx.c file
6. cleanup normalize.sed file from pg14 specific lines
7. delete all alternative output files for that particular PG version,
server_version_ge variable helps here
This change refactors the code by using generate_qualified_relation_name
from id instead of using a sequence of functions to generate the
relation name.
Fixes#6602
(cherry picked from commit ee11492a0e)
This fixes#7230.
First of all, using HeapTupleHeaderGetDatumLength(heapTuple) is
definetly wrong, it gives a number that's 4 times less than the correct
tuple size (heapTuple.t_len). See
https://github.com/postgres/postgres/blob/REL_16_0/src/include/access/htup_details.h#L455-L456https://github.com/postgres/postgres/blob/REL_16_0/src/include/varatt.h#L279https://github.com/postgres/postgres/blob/REL_16_0/src/include/varatt.h#L225-L226
When I fixed it, the limit_intermediate_size test failed, so I tried to
understand what's going on there. In original commit fd546cf these
queries were supposed to fail. Then in b3af63c three of the queries that
were supposed to fail suddenly worked and tests were changed to pass
without understanding why the output had changed or how to keep test
testing what it had to test. Even comments saying that these queries
should fail were left untouched. Commit message gives no clue about why
exactly test has changed:
> It seems that when we use adaptive executor instead of task tracker,
we
> exceed the intermediate result size less in the test. Therefore
updated
> the tests accordingly.
Then 3fda2c3 also blindly raised the limit for one of the queries to
keep it working:
3fda2c3254 (diff-a9b7b617f9dfd345318cb8987d5897143ca1b723c87b81049bbadd94dcc86570R19)
When in fe3caf3 that HeapTupleHeaderGetDatumLength(heapTuple) call was
finally added, one of those test queries became failing again.
The other two of them now also failing after the fix. I don't understand
how exactly the calculation of "intermediate result size" that is
limited by citus.max_intermediate_result_size had changed through
b3af63c and fe3caf3, but these numbers are now closer to what
they originally were when this limitation was added in
fd546cf. So these queries should fail, like in the original
version of the limit_intermediate_size test.
Co-authored-by: Karina Litskevich <litskevichkarina@gmail.com>
(cherry picked from commit 20dc58cf5d)
This PR provides successful compilation against PG17.0.
- Remove ExecFreeExprContext call
Relevant PG commit
d060e921ea5aa47b6265174c32e1128cebdbc3df
d060e921ea
- PG17 uses streaming IO in analyze, fix scan_analyze_next_block function
Relevant PG commit
041b96802efa33d2bc9456f2ad946976b92b5ae1
041b96802e
- Define ObjectClass for PG17+ only since it's removed
Relevant PG commit:
89e5ef7e21812916c9cf9fcf56e45f0f74034656
89e5ef7e21
- Remove ReorderBufferTupleBuf structure.
Relevant PG commit:
08e6344fd6423210b339e92c069bb979ba4e7cd6
08e6344fd6
- Define colliculocale and daticulocale since they have been renamed
Relevant PG commit:
f696c0cd5f299f1b51e214efc55a22a782cc175d
f696c0cd5f
- makeStringConst defined in PG17
Relevant PG commit:
de3600452b61d1bc3967e9e37e86db8956c8f577
de3600452b
- RangeVarCallbackOwnsTable was replaced by RangeVarCallbackMaintainsTable
Relevant PG commit:
ecb0fd33720fab91df1207e85704f382f55e1eb7
ecb0fd3372
- attstattarget is nullable, define pg compatible functions for it
Relevant PG commit:
4f622503d6de975ac87448aea5cea7de4bc140d5
4f622503d6
- stxstattarget is nullable in PG17, write compat functions for it
Relevant PG commit:
012460ee93c304fbc7220e5b55d9d0577fc766ab
012460ee93
- Use ResourceOwner to track WaitEventSet in PG17
Relevant PG commit:
50c67c2019ab9ade8aa8768bfe604cd802fe8591
50c67c2019
- getIdentitySequence now uses Relation instead of relation_id
Relevant PG commit:
509199587df73f06eda898ae13284292f4ae573a
509199587d
- Remove no-op tuplestore_donestoring function
Relevant PG commit:
75680c3d805e2323cd437ac567f0677fdfc7b680
75680c3d80
- MergeAction can have 3 merge kinds (now enum) in PG17, write compat
Relevant PG commit:
0294df2f1f842dfb0eed79007b21016f486a3c6c
0294df2f1f
- EXPLAIN (MEMORY) is added, make changes to ExplainOnePlan
Relevant PG commit:
5de890e3610d5a12cdaea36413d967cf5c544e20
5de890e361
- LIMIT_OPTION_DEFAULT has been removed as it's useless, use LIMIT_OPTION_COUNT
Relevant PG commit:
a6be0600ac3b71dda8277ab0fcbe59ee101ac1ce
a6be0600ac
- write compat for create_foreignscan_path bcs of more arguments in PG17
Relevant PG commit:
9e9931d2bf40e2fea447d779c2e133c2c1256ef3
9e9931d2bf
- pgprocno and lxid have been combined into a struct in PGPROC
Relevant PG commits:
28f3915b73f75bd1b50ba070f56b34241fe53fd1
28f3915b73
ab355e3a88de745607f6dd4c21f0119b5c68f2ad
ab355e3a88
024c521117579a6d356050ad3d78fdc95e44eefa
024c521117
- Simplify CitusNewNode (#7434)
postgres refactored newNode() in PG 17, the main point for doing this is
the original tricks is no longer neccessary for modern compilers[1].
This does the same for Citus.
This should have no backward compatibility issues since it just replaces
palloc0fast with palloc0.
This is good for forward compatibility since palloc0fast no longer
exists in PG 17.
[1]
https://www.postgresql.org/message-id/b51f1fa7-7e6a-4ecc-936d-90a8a1659e7c@iki.fi
(cherry picked from commit 4b295cc)
This is prep work for successful compilation with PG17
PG17added foreach_ptr, foreach_int and foreach_oid macros
Relevant PG commit
14dd0f27d7cd56ffae9ecdbe324965073d01a9ff
14dd0f27d7
We already have these macros, but they are different with the
PG17 ones because our macros take a DECLARED variable, whereas
the PG16 macros declare a locally-scoped loop variable themselves.
Hence I am renaming our macros to foreach_declared_
I am separating this into its own PR since it touches many files. The
main compilation PR is https://github.com/citusdata/citus/pull/7699
In preparation of sorting and grouping all includes we wanted to move
this file to the toplevel includes for good grouping/sorting.
(cherry picked from commit 0dac63afc0)
Similar to https://github.com/citusdata/citus/pull/7077.
As PG 16+ has changed the join restriction information for certain outer
joins, MERGE is also impacted given that is is also underlying an outer
join.
See #7077 for the details.
Prior to this commit, the code would skip processing the
errors happened for local commands.
Prior to https://github.com/citusdata/citus/pull/5379, it might
make sense to allow the execution continue. But, as of today,
if a modification fails on any placement, we can safely fail
the execution.
The first commit show the problem in action. The second commit
includes the fix and the test fixes.
This commit is the second and last phase of dropping PG13 support.
It consists of the following:
- Removes all PG_VERSION_13 & PG_VERSION_14 from codepaths
- Removes pg_version_compat entries and columnar_version_compat entries
specific for PG13
- Removes alternative pg13 test outputs
- Removes PG13 normalize lines and fix the test outputs based on that
It is a continuation of 5bf163a27d
We need to rewind the tuplestorestate's tuple index to get correct
results on fetching scrollable with hold cursors.
`PersistHoldablePortal` is responsible for persisting out
tuplestorestate inside a with hold cursor before commiting a
transaction.
It rewinds the cursor like below (`ExecutorRewindcalls` calls `rescan`):
```c
if (portal->cursorOptions & CURSOR_OPT_SCROLL)
{
ExecutorRewind(queryDesc);
}
```
At the end, it adjusts tuple index for holdStore in the portal properly.
```c
if (portal->cursorOptions & CURSOR_OPT_SCROLL)
{
if (!tuplestore_skiptuples(portal->holdStore,
portal->portalPos,
true))
elog(ERROR, "unexpected end of tuple stream");
}
```
DESCRIPTION: Fixes incorrect results on fetching scrollable with hold
cursors.
Fixes https://github.com/citusdata/citus/issues/7010
1) For distributed tables that are not colocated.
2) When joining on a non-distribution column for colocated tables.
3) When merging into a distributed table using reference or citus-local tables as the data source.
This is accomplished primarily through the implementation of the following two strategies.
Repartition: Plan the source query independently,
execute the results into intermediate files, and repartition the files to
co-locate them with the merge-target table. Subsequently, compile a final
merge query on the target table using the intermediate results as the data
source.
Pull-to-coordinator: Execute the plan that requires evaluation at the coordinator,
run the query on the coordinator, and redistribute the resulting rows to ensure
colocation with the target shards. Direct the MERGE SQL operation to the worker
nodes' target shards, using the intermediate files colocated with the data as the
data source.
PG16beta1 added some sanity checks for GUCS, find the Relevant PG
commits below:
1- Add check on initial and boot values when loading GUCs
a73952b795
2- Extend check_GUC_init() with checks on flag combinations when loading
GUCs
009f8d1714
I fixed our currently problematic GUCS, we can merge this directly into
main as these make sense for any PG version.
There was a particular NodeConninfo issue:
Previously we would rely on the fact that NodeConninfo initial value
is an empty string. However, with PG16 enforcing same initial and boot
values, we can't use an empty initial value for NodeConninfo anymore.
Therefore we add a new flag to indicate whether we are at boot check.
DESCRIPTION: Enabling citus_stat_tenants to support schema-based
tenants.
This pull request modifies the existing logic to enable tenant
monitoring with schema-based tenants. The changes made are as follows:
- If a query has a partitionKeyValue (which serves as a tenant
key/identifier for distributed tables), Citus annotates the query with
both the partitionKeyValue and colocationId. This allows for accurate
tracking of the query.
- If a query does not have a partitionKeyValue, but its colocationId
belongs to a distributed schema, Citus annotates the query with only the
colocationId. The tenant monitor can then easily look up the schema to
determine if it's a distributed schema and make a decision on whether to
track the query.
---------
Co-authored-by: Jelte Fennema <jelte.fennema@microsoft.com>
DESCRIPTION: Fixes a crash when explain analyze is requested for a query
that is normally locally executed.
When explain analyze is requested for a query, a task with two queries
is created. Those two queries are
1. Wrapped Query --> `SELECT ... FROM
worker_save_query_explain_analyze(<query>, <explain analyze options>)`
2. Fetch Query -->` SELECT explain_analyze_output, execution_duration
FROM worker_last_saved_explain_analyze();`
When the query is locally executed a task with multiple queries causes a
crash in production. See the Assert at
57455dc64d/src/backend/distributed/executor/tuple_destination.c#:~:text=Assert(task%2D%3EqueryCount%20%3D%3D%201)%3B
This becomes a critical issue when auto_explain extension is used. When
auto_explain extension is enabled, explain analyze is automatically
requested for every query.
One possible solution could be not to create two queries for a locally
executed query. The fetch part may not have to be a query since the
values are available in local variables.
Until we enable local execution for explain analyze, it is best to
disable local execution.
Fixes#6777.
We mark objects as distributed objects in Citus metadata only if we need
to propagate given the command that creates it to worker nodes. For this
reason, we were not doing this for the objects that are created while
pg_dist_node is empty.
One implication of doing so is that we defer the schema propagation to
the time when user creates the first distributed table in the schema.
However, this doesn't help for schema-based sharding (#6866) because we
want to sync pg_dist_tenant_schema to the worker nodes even for empty
schemas too.
* Support test dependencies for isolation tests without a schedule
* Comment out a test due to a known issue (#6901)
* Also, reduce the verbosity for some log messages and make some
tests compatible with run_test.py.
This PR updates the tenant stats implementation to set partitionKeyValue
and colocationId in ExecuteLocalTaskListExtended, in addition to
LocallyExecuteTaskPlan. This ensures that tenant stats can be properly
gathered regardless of the code path taken. The changes were initially
made while testing stored procedure calls for tenant stats.
DESCRIPTION: Adds views that monitor statistics on tenant usages
This PR adds `citus_stats_tenants` view that monitors the tenants on the
cluster.
`citus_stats_tenants` shows the node id, colocation id, tenant
attribute, read count in this period and last period, and query count in
this period and last period of the tenant.
Tenant attribute currently is the tenant's distribution column value,
later when schema based sharding is introduced, this meaning might
change.
A period is a time bucket the queries are counted by. Read and query
counts for this period can increase until the current period ends. After
that those counts are moved to last period's counts, which cannot
change. The period length can be set using 'citus.stats_tenants_period'.
`SELECT` queries are counted as _read_ queries, `INSERT`, `UPDATE` and
`DELETE` queries are counted as _write_ queries. So in the view read
counts are `SELECT` counts and query counts are `SELECT`, `INSERT`,
`UPDATE` and `DELETE` count.
The data is stored in shared memory, in a struct named
`MultiTenantMonitor`.
`citus_stats_tenants` shows the data from local tenants.
`citus_stats_tenants` show up to `citus.stats_tenant_limit` number of
tenants.
The tenants are scored based on the number of queries they run and the
recency of those queries. Every query ran increases the score of tenant
by `ONE_QUERY_SCORE`, and after every period ends the scores are halved.
Halving is done lazily.
To retain information a longer the monitor keeps up to 3 times
`citus.stats_tenant_limit` tenants. When the tenant count hits `3 *
citus.stats_tenant_limit`, last `citus.stats_tenant_limit` tenants are
removed. To see all stored tenants you can use
`citus_stats_tenants(return_all_tenants := true)`
- [x] Create collector view that gets data from all nodes. #6761
- [x] Add monitoring log #6762
- [x] Create enable/disable GUC #6769
- [x] Parse the annotation string correctly #6796
- [x] Add local queries and prepared statements #6797
- [x] Rename to citus_stat_statements #6821
- [x] Run pgbench
- [x] Fix role permissions #6812
---------
Co-authored-by: Gokhan Gulbiz <ggulbiz@gmail.com>
Co-authored-by: Jelte Fennema <github-tech@jeltef.nl>
Description:
Implementing CDC changes using Logical Replication to avoid
re-publishing events multiple times by setting up replication origin
session, which will add "DoNotReplicateId" to every WAL entry.
- shard splits
- shard moves
- create distributed table
- undistribute table
- alter distributed tables (for some cases)
- reference table operations
The citus decoder which will be decoding WAL events for CDC clients,
ignores any WAL entry with replication origin that is not zero.
It also maps the shard names to distributed table names.
We should not omit to free PGResult when we receive single tuple result
from an internal backend.
Single tuple results are normally freed by our ReceiveResults for
`tupleDescriptor != NULL` flow but not for those with `tupleDescriptor
== NULL`. See PR #6722 for details.
DESCRIPTION: Fixes memory leak issue with query results that returns
single row.
DESCRIPTION: Fix foreign key validation skip at the end of shard move
In eadc88a we started completely skipping foreign key constraint
validation at the end of a non blocking shard move, instead of only for
foreign keys to reference tables. However, it turns out that this didn't
work at all because of a hard to notice bug: By resetting the
SkipConstraintValidation flag at the end of our utility hook, we
actually make the SET command that sets it a no-op.
This fixes that bug by removing the code that resets it. This is fine
because #6543 removed the only place where we set the flag in C code. So
the resetting of the flag has no purpose anymore. This PR also adds a
regression test, because it turned out we didn't have any otherwise we
would have caught that the feature was completely broken.
It also moves the constraint validation skipping to the utility hook.
The reason is that #6550 showed us that this is the better place to skip
it, because it will also skip the planning phase and not just the
execution.
Before this commit, we created an additional WaitEventSet for
checking whether the remote socket is closed per connection -
only once at the start of the execution.
However, for certain workloads, such as pgbench select-only
workloads, the creation/deletion of the additional WaitEventSet
adds ~7% CPU overhead, which is also reflected on the benchmark
results.
With this commit, we use the same WaitEventSet for the purposes
of checking the remote socket at the start of the execution.
We use "rebuildWaitEventSet" flag so that the executor can re-use
the existing WaitEventSet.
As a result, we see the following improvements on PG 15:
main : 120051 tps, 0.532 ms latency avg.
avoid_wes_rebuild: 127119 tps, 0.503 ms latency avg.
And, on PG 14, as expected, there is no difference
main : 129191 tps, 0.495 ms latency avg.
avoid_wes_rebuild: 129480 tps, 0.494 ms latency avg.
But, note that PG 15 is slightly (~1.5%) slower than PG 14.
That is probably the overhead of checking the remote socket.
PostgreSQL 15 exposes WL_SOCKET_CLOSED in WaitEventSet API, which is
useful for detecting closed remote sockets. In this patch, we use this
new event and try to detect closed remote sockets in the executor.
When a closed socket is detected, the executor now has the ability to
retry the connection establishment. Note that, the executor can retry
connection establishments only for the connection that has not been
used. Basically, this patch is mostly useful for preventing the executor
to fail if a cached connection is closed because of the worker node
restart (or worker failover).
In other words, the executor cannot retry connection establishment if we
are in a distributed transaction AND any command has been sent over the
connection. That requires more sophisticated retry mechanisms. For now,
fixing the above use case is enough.
Fixes#5538
Earlier discussions: #5908, #6259 and #6283
### Summary of the current approach regards to earlier trials
As noted, we explored some alternatives before getting into this.
https://github.com/citusdata/citus/pull/6283 is simple, but lacks an
important property. We should be checking for `WL_SOCKET_CLOSED`
_before_ sending anything over the wire. Otherwise, it becomes very
tricky to understand which connection is actually safe to retry. For
example, in the current patch, we can safely check
`transaction->transactionState == REMOTE_TRANS_NOT_STARTED` before
restarting a connection.
#6259 does what we intent here (e.g., check for sending any command).
However, as @marcocitus noted, it is very tricky to handle
`WaitEventSets` in multiple places. And, the executor is designed such
that it reacts to the events. So, adding anything `pre-executor` seemed
too ugly.
In the end, I converged into this patch. This patch relies on the
simplicity of #6283 and also does a very limited handling of
`WaitEventSets`, just for our purpose. Just before we add any connection
to the execution, we check if the remote session has already closed.
With that, we do a brief interaction of multiple wait event processing,
but with different purposes. The new wait event processing we added does
not even consider cancellations. We let that handled by the main event
processing loop.
Co-authored-by: Marco Slot <marco.slot@gmail.com>
Introduces a new GUC named citus.skip_constraint_validation, which basically skips constraint validation when set to on.
For some several places that we hack to skip the foreign key validation phase, now we use this GUC.
This is a refactoring PR that starts using our new hash table creation
helper function. It adds a few more macros for ease of use, because C
doesn't have default arguments. It also adds a macro to check if a
struct contains automatic padding bytes. No struct that is hashed using
tag_hash should have automatic padding bytes, because those bytes are
undefined and thus using them to create a hash will result in undefined
behaviour (usually a random hash).
While testing 5670dffd33, I realized
that we have a missing RecordNonDistTableAccessesForTask() for
local utility commands.
Although we don't have to record the relation access for local
only cases, we really want to keep the behaviour for scale-out
be the same with single node on all aspects. We wouldn't want
any single node complex transaction to work on single machine,
but not on multi node cluster. Hence, we apply the same restrictions.
For example, on a distributed cluster, the following errors, and
after this commit this errors locally as well
```SQL
CREATE TABLE ref(a int primary key);
INSERT INTO ref VALUES (1);
CREATE TABLE dist(a int REFERENCES ref(a));
SELECT create_reference_table('ref');
SELECT create_distributed_table('dist', 'a');
BEGIN;
SELECT * FROM dist;
TRUNCATE ref CASCADE;
ERROR: cannot execute DDL on table "ref" because there was a parallel SELECT access to distributed table "dist" in the same transaction
HINT: Try re-running the transaction with "SET LOCAL citus.multi_shard_modify_mode TO 'sequential';"
COMMIT;
```
We also add the comprehensive test suite and run the same locally.
* Remove if conditions with PG_VERSION_NUM < 13
* Remove server_above_twelve(&eleven) checks from tests
* Fix tests
* Remove pg12 and pg11 alternative test output files
* Remove pg12 specific normalization rules
* Some more if conditions in the code
* Change RemoteCollationIdExpression and some pg12/pg13 comments
* Remove some more normalization rules
* Blocking split setup
* Add missing type
* Missing API from Metadata Sync
* Shard Split e2e code
* Worker Split Copy DestReceiver skeleton
* Basic destreceiver code
* worker_split_copy UDF
* UDF calling
* Split points are text
* Isolate Tenant and Split Shard Unification
* Fixing executor and misc
* Reindent code
* Fixing UDF definitions
* Hello World Local Copy works
* Remote copy hello world works
* Local and Remote binary test
* Fixing text local copy and adding tests
* Hello World shard split works
* Negative tests
* Blocking Split workflow works
* Refactor
* Bug fix
* Reindent
* Cleaning up and adding comments
* Basic test for shard split workflow
* ReIndent
* Circle CI integration
* Removing include causing circle-ci build failure
* Remove SplitCopyDestReceiver and use PartitionedResultDestReceiver
* Add support for citus.enable_binary_protocol
* Reindent
* Fix build break
* Update Test
* Cleanup on catch
* Addressing open comments
* Update downgrade script and quote schema/table in COPY statement
* Fix metadata sync issue. Update regression test
* Isolation test and bug fix
* Add Isolation test, fix foreign constraint deadlock issue
* Misc code review comments
* Test name needing to be quoted
* Refactor code from review comments
* Explaining shardGroupSplitIntervalListList
* Fix upgrade & downgrade
* Fix broken test
* Test fix Round 2
* Fixing bug and modifying test appropriately
* Fully qualify copy udf name. Run Reindent
* Address PR comments
* Fix null handling when creating AuxiliaryStructures
* Ensure local copy is triggered in tests
* Limit max shards that can be created with split
* Test failure fix
* Remove split_mode and use shard_transfer_mode instead'
* Fix test failure
* Fix test failure
* Fixing permission issue when splitting non-superuser owned tables
* Fix test expected output
* Remove extra space
* Fix test
* attempt to fix test
* Addressing Marco's PR comment
* Only clean shards created by workflow
* Remove from merge
* Update test
Similar to #5897, one more step for running Citus with PG 15.
This PR at least make Citus run with PG 15. I have not tried running the tests with PG 15.
Shmem changes are based on 4f2400cb3f
Compile breaks are mostly due to #6008
This PR makes all of the features open source that were previously only
available in Citus Enterprise.
Features that this adds:
1. Non blocking shard moves/shard rebalancer
(`citus.logical_replication_timeout`)
2. Propagation of CREATE/DROP/ALTER ROLE statements
3. Propagation of GRANT statements
4. Propagation of CLUSTER statements
5. Propagation of ALTER DATABASE ... OWNER TO ...
6. Optimization for COPY when loading JSON to avoid double parsing of
the JSON object (`citus.skip_jsonb_validation_in_copy`)
7. Support for row level security
8. Support for `pg_dist_authinfo`, which allows storing different
authentication options for different users, e.g. you can store
passwords or certificates here.
9. Support for `pg_dist_poolinfo`, which allows using connection poolers
in between coordinator and workers
10. Tracking distributed query execution times using
citus_stat_statements (`citus.stat_statements_max`,
`citus.stat_statements_purge_interval`,
`citus.stat_statements_track`). This is disabled by default.
11. Blocking tenant_isolation
12. Support for `sslkey` and `sslcert` in `citus.node_conninfo`
Colm
Naisila Puka
eaydingol
Karina
Jelte Fennema-Nio
Nils Dijk
zhjwpku
Önder Kalacı
aykut-bozkurt
Teja Mupparti
Gokhan Gulbiz
Emel Şimşek
Onur Tirtir
Halil Ozan Akgül
Marco Slot
Marco Slot
rajeshkt78
Jelte Fennema
Ahmet Gedemenli
Nitish Upreti